US1903439A - Window wiper - Google Patents

Description

J. w. CAIN 'wmnow WIPER April 11, 1933.

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April 11, 1933. J w 1,903,439

WINDOW WIPER I Filed Dec. 7, 1929 2 Sheets-Sheet 2 $57? Qflaz'n i] orngy Patented Apr. 11, 1933 UNITED STAT S JOHN W. GAIN, OF CHICAGO, ILLINOIS WINDOW WIPER Application filed. December 7, 1929. Serial No. 412,370.

mounted on the outside thereof.

It is an object of the invention to provide a device particularly useful instreet-cars and similar conveyances for enabling'the motorman to maintain an unobstructed view through the window without compelling him to leave the operating compartment.

Another object of the invention is to provide a device of this type which will not re-.

quire the installation of fluid pressure actuated contrivances for operating'the wiper structure and which, thereforefis lesslikely to get out of order through excessive fluctuations in temperature or humidity. V

. It is, furthermore, an object of the invention to provide a device of this character in which a wiping member is automatically ap plied to the outer surface of the window when the structure is actuated in one direction only, as for instance downward, while upon operation in the opposite direction the wiping element is lifted from the surface of the window pane, but is automatically returned to engagement with said pane when it is again actuated in the first named direction.

It is an additional object of the invention to provide a device of this character which is simple in construction, less costly in installation and safer in operation than devices which have heretofore been suggested for similar purposes. 7

With these and other objects in view an embodiment of the invention is described in the following specification in which the novel features are pointed out under reference to the accompanying drawings.

In the drawings:

i Fig. 1 is a front'elevation of parts of the device located on the outside of the window;

. Fig. 2is a transverse sectional view through the-device on a larger scale;

Fig. 3 is a detail sectional view of the lower portion of the window frame sash and wiper, certain parts being shown in elevation;

Fig. 4 is a sectional view on certain details of the wiper support;

F 5is a detail sectional View of the manually actuated operating assembly and its guide;

F ig. 6 is a transverse sectional view on line 6-6 ofFig.2; f Fig. 7 "s a sectional view of the lower por tion of the guiding device for the wiper element; T 1

Figs. 8 and 9 are sectionalviews on lines 88 and 99 respectively of Fig. 7

Flg. 10 is a perspective view of certain parts of the apparatus, and 1 Fig. 11 is a part levation and part section of a modified actuating device.

The window pane 1 with its sash is mounted in a frame 2 of any desired construction, and a detail description -of-this mounting may be dispensed with. For the purpose of guiding the wiper structure indicated as' awhole at 3 for suitable movement relatively to the pane 1, there are disposed on the exte nor of the-frame 2, guidingconduits 4 which are secured at the top by brackets '5 and at the bottom by brackets 6 adj acent the longitudinal vertical members of the frame '2. 5 These guiding elements are formed as pipes preferablyeof circular cross-section, each pipe being slotted longitudinallyat 7 on that side which is directed towards the frame 2, as clearly shown in Figs. 8 and 9.

The wiper structure 3 comprises in combination with the squeegee or wiper member 9 a plurality of fingers 10 which are spaced transversely of the windowand fixedly connected with a rock shaft 11, the outer ends of the fingers being firmly united with a transverse holder 12 of sheet metal or the like, in which the squeegee 9 is clamped in some suitable way.

The shaft 11 is supported near its endsin Q0 bearings 13 which form the lower portions of brackets li'riveted or fastened in some other way to slide membersf15, movable in axial direction within the guides 4, but held against rotation owing to the portion thereon which projects through the slot 7 These slides 15 are frictionally held against axial movement in either direction within-the'tubes.

" These slides 15 are each provided with a longitudinal bore, as shown in Figs. 2 and element as a cable-18, although the chains 1'? alone may be used, or the cables alone may be used as supports for the bars 16. A block 19 is rigidly secured to the bar 16, near'the upper end thereof, Figs.2 and 7 which also may be held against rotation about its axis, by engaging the slot 7, or by means of a key 20 on the interior of the tube. Each cable 18is guided over a sleeve or pulley within the bracket 5 pertaining, to. the guide" 4, and is then directed thr ouglra passage 22 ofthe frame to be trained. on the inner side over another pulley 23 in the companion bracket 5: in-the interior of. the operating compartment. The end of cable 18 is secured to the actuating device. a

The actuating device comprises in each tube 4 in the operating compartments an upper slidable block 24to which the end of cable 18 is fastened, a lower slidable block 25 and a-rigid handle member 26 connecting the two blocks, but located outside the pertaining tube 4, so as to be readily accessible for manualoperation. The lower slidable block positively connected through the. handle 26 with the; upper. block 24 serves for the attach-- ment of a-tension member 27 which is at its other-end secured to the foot of the bar 16. This second tension element also is trained over pulleys 21' and 23 and passes through a bore-22 near the lower end of the frame. i

It will be seen, therefore, that'uponshifting the handle member 26 up or down'in the interior of the-compartment,-the rod 16 will be moved downv or up on the outer surface of the window within 'the-pertaining'tube, 4, the combined cables 18,27 formingin fact a single tension member, since they are con-' nected by the rigid actuating-device.v

The lower portionof the rod 16 is fixedly connected or made integral with the plunger 29 loosely slidable in the outer'tube 4 and held against rotation therein by apart projecting through the longitudinal slot 7, similar to the upper, block 19. It should be noticed, however, that the slide 15 is loose on the rod, so that a pull on the tension member in either direction does not directly influence'said-slide. I r

'The lower plunger 29 has a finger 30 projecting through the slot 7 of the tube outward, and laterally thereof, as indicated in F ig. 9,.for cooperationwith a finger 31 proecting from a collar 32 which is pinned at 33 to the end of the rock shaft 11. The

finger 30 of the plunger '29'has a cam edge which engages the finger 31 of the collar 32- when said blockis forced downward, and after having acted from above on said collar in its downward movement, it remains in engagement therewith, Fig. 7

For this purpose the shaft 11, as "shown in Fig. 4, is provided with a spring 40 within a casing 41 rigidly secured to shaft 11 and to which one end of the spring is anchored at 42. The other end of, the spring is secured at 43 to the bearing 13'on bracket 14. As this bracket 14 is rigidly connected with the slide 15,. the end 42 of the spring'40 also is prevented from turning about the axis of theshaft 11, and the spring has a tendency to maintain shaft 11 in a position'in which the squeegee is spaced from the window pane.

The two upper pulleys 21 may be connected by meansof' a transverse shaft 34, Fig. 1,'and the handles26' of the two manipulating devices in theinterior of the compartment or vestibule may also be connected by a rod 35 which, as shown in Fig. 6, is enclosed within a tube 36 for better appearance and manipulation. The spring structure includ ing the bracket 14, spring 40', casing 41 and collar 32 provided at each end of the shaft 11, as shown in Fig. 1', whereby upon movement of the plungers 29 against the fingers 31, the shaft 11 will be rocked. The operation, therefore, is as follows When the united handles 26 are moved upward in the interior ofthe room or vesti-' bule, the out-er strand ofthe connectedtension members 18, 17, 27 is moved downward,- and'therefore also the rods 16 will be moved dfownwardflin the tubes 4 on the outside of the window. The rods 16 upon moving downward} will after a very short travel move their upper blocks 19into Contact with the tops ofthe slides 15 which then rested at their lower ends on the plungers '29.. These plungers are positively'move'd away atthe same time from the slides 15, thereby forcingtheir cam arms 30into engagement with thefingers31' of collars 32 and imparting'a' rockingmovementito shaft 11, so as to ap-, ply the-squeegee 9 yieldingly against, the pane. In the' continued' downward movement, this relation of'slides 15, blocks19 and p-lungers 29'i s'maintain'ed, whereby the pane r is wiped. When. at any point of the path the force moving the structure downward ceases to be applied, the spring 40 will act to re store the shaft 11 to its far position rela tively to the pane, and the parts will then occupy the position illustrated in Fig. 7

If it is desiredtorepeat' "the wiping operation, the handles 26' on, the inside of the window must again be. moved downward, inducing an upward movement of the rods 16 in the outer tubes 4- of the window. The upward movement of the rods 16 and of the plungers 29 a'ssociatedwith the same'will lift the slides 15, thereby also moving' up ward the brackets 14 to which the sh'aft. 11 is secured. During this upward movement,

therefore, the wiper structure remains in inoperative position, and it is only upon the occurrence of a predetermined relative movement of the squeegee supports 15 and squeegee applicators 29 that the device becomes operative.

In the modification illustrated in Fig. 11, means are provided for rocking the squeegee holder without necessarily inducing movement of the squeegee up or down along the window. The cable illustrated in ldig. 10 extends over a pulley, not shown, coaxial with the sprocket 23, but rotatable independently thereof, and the lower outer end of the cable which extends parallel to the chain 17 in the outer tube passes loosely through the parts 19 and 15, and is secured to the lower block 29 in any desired way,

and therefore not illustrated. The opposite or inner end of this cable is secured to the inner end of a thumb piece 51, as indicated at 54. The thumb piece 51 is pivotally supported on the handle 26 at 53 and is normally held with its outer end upward by a spring 52. When this thumb piece is depressed against the action of the spring, the inner end 54 will exert a pull on the cable 50 and will thereby impart an upward movement to the element 29, inducing a rocking movement of the squeegee support.

I claim: i

1. In a device of the character described,

the combination of a window wiper structure comprising a squeegee, a rock shaft on which said squeegee is supported, bearing brackets for said rock shaft, slides rigidly connected with said bearing brackets, guiding means on the outside of the window for said slides, rods extending through said slides and carrying enlargements spaced from said slides, means connected to said rods and operable from the inner side of the window for imparting movements to said rods, and enlargements relatively to said slides, and means on one of said enlargements for positively rocking said rock shaft upon movement of the respective enlargement in a predetermined direction.

2. In a window cleaner a rock shaft, a squeegee secured to the rock shaft, a tubular slide connected with the rock shaft, a guide tube for the slide, a tension member passing loosely through the slide in the guide tube, and means on the tension member in the guide tube for forcibly engaging the slide after movement of the tension member has been initiated for moving the slide and rock shaft in either direction from any point of the path depending on the direction of movement of the tension member.

3. In a window cleaner, a rock shaft car rying a squeegee thereon, a slide supported by the rock shaft, a guiding tube for the slide and in which the slide is frictionally maintained at any point of its path, a tension member extending through said guide tube, and blocks fixed on the tension member above and below the slide and at a distance fromlthe ends of the slide, whereby-upon movement of said tension member, either of said blocks is caused to engage said slide andshiftit from the point of its path to which it has beenretained.

adjusted and in which it hadfbeen frictionally- 4. In a window cleaner,'the'combination of a rock shaftcarrying a squeegee thereon,

a slide having a longitudinal. bore. and connected to the rock shaft and guided for movement along a window, a tension member movable relatively to the slide through said bore,

a plurality of means fixed on the tension member for engaging said slide and imparting a movement thereto when the tension member is being moved, and a cam element on one of said means coacting with the rock shaft for imparting a rocking movement to said shaft upon movement of said tension member in a predetermined direction.

5. In a window cleaner, the combination of a rock shaft carrying a squeegee thereon, a slide having a longitudinal bore and connected to the rock shaft, a guide tube for the slide at the side of the window, a tension member movable in said tube relatively to the slide through said bore, a plurality of means fixed on the tension member within said tube for engaging said slide and imparting a movement thereto when the tension member is being moved, anda cam element projecting from said tube on one of said means coacting with the rock shaft for imparting a rocking movement to said shaft.

6. In a window cleaner, the combination of a rock shaft having a squeegee thereon, a slide with a longitudinal bore and connected to the rock shaft, means for frictionally retaining the slide and rock shaft at any point of their path, a tension member movable relatively to the slide through said bore, a bracket on said rock shaft, a spring constraining said rock shaft to turn in a predetermined direction, means on the tension member for forcibly engaging the slide to move the same in a predetermined direction upon movement of the tension member in a predetermined direction, and a cam element on said last mentioned means for engaging the bracket on the rock shaft and adapted to impart a turning movement to said shaft against the action of said spring.

7 In a window cleaner, the combination of a rock shaft carrying a squeegee, a bracket through which said rock shaft loosely extends, a slide secured to said bracket, guiding means for said slide and adapted to prevent a turning movement of said bracket about the rock shaft, a tension member pass ing through said guiding means and movable relatively to the slide, means at a fixed slide upon movement of said tension member relativelyito theslide, a, spring secured tothe bracket and surrounding the rock shaft and adaptedgto constrain said rock shaft to T turn ina predetermined direction, a sefeond bracket on: the rock'shaft, one of said means on the ztensi'onmember being adapted to engage said vsecond-bracket and to impart there-, by a turning movement to said real: shaft, in

adirection opposite toithat in which the spring tends'to turn the ro'ckshaft.

.In Witness whereof "I atfix my signature.

JOHN W. GAIN.

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